Equilibrium Equation of Thermal Radiation of Earth and Solution

Authors

  • Tian-Quan Yun

Keywords:

thermal radiation, kirchhoff’s law stefanboltzmann law, plank’s law, optimization theory

Abstract

The Earth is isolate on its orbit motion around the Sun The thermal radiation on Earth determines climate warmer or colder By Kirchhoff s law the thermal radian on Earth must be in an equilibrium state Which equivalents to an optimum problem This paper establishes an equilibrium equation of thermal radiation of Earth transmits it to an optimum problem and proves that the equilibrium of thermal radiation of Earth is an indifferent equilibrium neither stable nor un-stable based on the Stefan- Boltzmann law and the emissivity formula The result means that the climate neither getting warmer and warmer nor getting colder and colder

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How to Cite

Tian-Quan Yun. (2022). Equilibrium Equation of Thermal Radiation of Earth and Solution. Global Journal of Science Frontier Research, 22(A2), 25–28. Retrieved from https://journalofscience.org/index.php/GJSFR/article/view/102896

Equilibrium Equation of Thermal Radiation of Earth and Solution

Published

2022-04-29